JP2017057044A - Information processing apparatus, temperature management system and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information processing apparatus capable of suitably sorting measurement information of a storage box existing in a loading space, and a temperature management system.SOLUTION: A terminal device 2 receives measurement information Sd from a temperature measurement module 7 provided in a heat insulation box 5. The terminal device 2 determines whether or not a delivery vehicle 1 is moving based on output information of a GPS receiver, on/off information of an engine, and the like. Then, the terminal device 2 specifies a box ID of the heat insulation box 5 existing inside the delivery vehicle 1 to generate a box registration list based on a time change of reception intensity of the measurement information Sd for each box ID after it is determined that the delivery vehicle 1 has moved, and transmits only measurement information including the box ID registered in the box registration list to a server device 9.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a technique for managing the internal temperature of a storage box to be transported.

  2. Description of the Related Art Conventionally, a technique for keeping a delivered package at an appropriate temperature is known. For example, in Patent Document 1, when a room temperature baggage and a refrigerated (frozen) baggage are transported by one transport truck, a heat insulating box is used for transporting the refrigerated or frozen baggage, and the temperature of each baggage in the heat insulating box is increased. A system for mounting a sensor is disclosed. Patent Document 2 discloses a technique in which a truck loading space (loading platform) is divided into two by a movable partition plate, and the temperature of each divided space is controlled by an air conditioner.

JP 2007-331937 A Japanese Patent Laid-Open No. 10-059057

  In the temperature management system in which the temperature sensor module is attached to the storage box for storing the load and the measurement information transmitted from the temperature sensor module is received by the in-vehicle device, the in-vehicle device is connected to the outside of the vehicle at the timing of loading the load. The temperature sensor module attached to the storage box may be within the radio wave reachable range. In this case, the equipment in the vehicle receives measurement information on unnecessary storage boxes that are not managed. SUMMARY OF THE INVENTION Accordingly, it is a main object of the present invention to provide an information processing apparatus and a temperature management system that can appropriately select measurement information of a storage box existing in a target loading space.

  In one aspect of the present invention, an information processing apparatus includes: a movement information acquisition unit that acquires movement information related to movement of a vehicle on which a storage box to be transported is loaded; and a temperature measurement unit provided in each of the storage boxes. Based on the measurement information receiving unit that receives the measurement information including the identification information of the storage box and the measurement temperature, the reception intensity of each of the measurement information, and the movement information, the temperature measurement unit existing in the vehicle is transmitted A measurement information specifying unit that specifies the measured information, and a measurement information storage unit that stores the measurement information specified by the measurement information specifying unit in the storage unit.

  In one aspect of the information processing apparatus, when the measurement information specifying unit determines that the vehicle has moved or stopped based on the movement information, the reception intensity of the measurement information transmitted from each of the temperature measurement units The measurement information transmitted from the temperature measurement unit existing in the vehicle is specified based on the time change of the vehicle.

  In another aspect of the information processing apparatus, the measurement information storage unit stores all measurement information received by the measurement information receiving unit in the storage unit before the measurement information specifying unit specifies the measurement information. Then, after the measurement information specifying unit specifies the measurement information, measurement information including identification information of the storage box other than the identification information of the storage box included in the measurement information specified by the measurement information specifying unit, It is deleted from the storage unit or stored separately from the measurement information specified by the measurement information specifying unit.

  In another aspect of the information processing apparatus, the information processing apparatus further includes a measurement information transmission unit that transmits measurement information stored in the storage unit to a temperature management device that manages an internal temperature of the storage box.

  In another aspect of the information processing apparatus, the information processing apparatus outputs an instruction information receiving unit that receives warning instruction information related to an internal temperature of the storage box from the temperature management apparatus, and a warning based on the instruction information. And an output unit.

  In another aspect of the information processing device, the information processing device transmits measurement information stored in the storage unit to a terminal device that communicates with a temperature management device that manages the internal temperature of the storage box. It further has a transmission part.

  In another aspect of the present invention, there is provided a temperature management system comprising: the information processing apparatus described above that exists in a vehicle on which a storage box is loaded; and a temperature management apparatus that manages an internal temperature of the storage box. The temperature management device includes a storage unit that stores information related to an allowable temperature during transportation of the internal temperature of the storage box, a measurement information reception unit that receives measurement information stored by the information processing device, and information related to the allowable temperature; And a determination unit that determines whether or not the internal temperature of the storage box needs to be adjusted based on the measurement information.

  In another aspect of the information processing device, the temperature management device is the same as the information processing device or the storage box when the determination unit determines that the internal temperature of the storage box needs to be adjusted. It further has a warning control unit for transmitting warning instruction information regarding the internal temperature of the storage box to an output device present in the vehicle.

  According to still another aspect of the present invention, there is provided a program executed by a computer that receives measurement information including identification information and measurement temperature of the storage box from a temperature measurement unit provided in each of the storage boxes, and is transported Based on a movement information acquisition unit that acquires movement information relating to movement of the vehicle on which the storage box is loaded, a reception intensity of each of the measurement information, and the movement information, the temperature measurement unit that is present in the vehicle is transmitted. The computer is caused to function as a measurement information specifying unit that specifies the measured information and a measurement information storage unit that stores the measurement information specified by the measurement information specifying unit in the storage unit.

  According to the present invention, the measurement information of the storage box existing in the loading space is accurately selected from the measurement information of the storage box existing outside the loading space, and the temperature management for the storage box existing in the loading space is appropriately performed. be able to.

It is a figure showing a schematic structure of a temperature management system concerning an embodiment. The 1st structural example of a heat insulation box is shown. The accommodation state at the time of non-use of the heat insulation box of the 1st example of composition is shown. The 2nd structural example of a heat insulation box is shown. It is a figure explaining the structure regarding accommodation of the heat insulation box of a 2nd structural example. The 3rd structural example of a heat insulation box is shown. It is a block diagram of a terminal device. It is a block diagram of a temperature measurement module. It is a block diagram of a server apparatus. An example of the data structure of a temperature management table is shown. It is a flowchart which shows the procedure of a measurement information storage process. It is a flowchart which shows the procedure of a warning process. It is a figure which shows schematic structure of the temperature management system which concerns on a modification.

  Embodiments according to the present invention will be described below with reference to the drawings.

[System configuration]
FIG. 1 is a diagram illustrating a schematic configuration of a temperature management system 100 according to the embodiment. The temperature management system 100 is a system for managing the internal temperature of the heat insulation box 5 loaded on the loading platform 17 of the delivery vehicle 1. As shown in FIG. The terminal device 2 which exists, the heat insulation box 5 which forms internal space with heat insulating materials, such as a vacuum heat insulating material, and the server apparatus 9 which communicates with the terminal device 2 are included. In the example of FIG. 1, the delivery vehicle 1 exists in the vicinity of the platform 4 for loading the heat insulation box 5 on each delivery vehicle together with other delivery vehicles loaded with the heat insulation box 5.

  The heat insulation box 5 accommodates one or a plurality of loads to be stored in the same temperature zone, and a temperature measurement module 7 described later is attached. In the heat insulation box 5, an internal temperature band (also referred to as “allowable temperature band”) that should be maintained in order to prevent deterioration of the stored baggage is defined for each heat insulation box 5. A temperature adjusting material 8 such as a cold insulating material for adjustment is appropriately accommodated. In the present embodiment, the temperature adjusting material 8 is appropriately added by the driver so that the internal temperature of the heat insulating box 5 is maintained in a predetermined allowable temperature range. Thereby, the internal temperature of the heat insulation box 5 is adjusted, without requiring a power supply. The heat insulation box 5 is an example of the “container box” in the present invention.

  The temperature measurement module 7 is a module having a function of measuring temperature and a communication function, and transmits measurement information “Sd” related to the internal temperature at regular or indefinite intervals or continuously. As will be described later, the measurement information Sd includes identification information (also referred to as “box ID”) for specifying the heat insulation box 5 that is a target of temperature measurement, in addition to the measurement information measured by the temperature measurement module 7. It is. In the present embodiment, the measurement information Sd transmitted from the temperature measurement module 7 is transmitted from the terminal device 2 to the temperature measurement module 7 regardless of whether or not the temperature measurement module 7 exists in the loading platform 17 of the delivery vehicle 1. Is received by the terminal device 2 when it exists within the radio wave reachable range.

  The terminal device 2 is an in-vehicle device such as a drive recorder or a navigation device, and performs communication with the server device 9 via a network. The terminal device 2 receives the measurement information Sd including the box ID transmitted from the temperature measurement module 7. At this time, the terminal device 2 uses a list of box IDs of the heat insulating boxes 5 stacked on the delivery vehicle 1 (“box registration list Lh”) based on the movement information of the delivery vehicle 1 and the reception intensity of each measurement information Sd. Also called). Then, the terminal device 2 transmits the measurement information Sd including the box ID registered in the box registration list Lh to the server device 9 together with the identification information (that is, the vehicle ID) of the delivery vehicle 1. Further, when the terminal device 2 receives the instruction information “Si” from the server device 9, the terminal device 2 outputs a warning about the internal temperature of the heat insulating box 5 based on the instruction information Si, or gives an instruction to add the temperature adjusting material 8. Or output. The terminal device 2 is an example of an “information processing device” in the present invention.

  The server device 9 is a server that manages the position of the delivery vehicle 1, the delivery route, and the like, and based on the measured temperature of each heat insulation box 5 indicated by the measurement information Sd received from the terminal device 2, the temperature adjusting material for the heat insulation box 5. 8 is determined whether or not additional charging is necessary. Then, when the server device 9 determines that it is necessary to add the temperature adjusting material 8 to the heat insulating box 5, the server device 9 sends instruction information Si for instructing output of a warning regarding the internal temperature of the heat insulating box 5 to the terminal device 2. Send. The server device 9 is an example of the “temperature management device” in the present invention.

  In the example of FIG. 1, since the delivery vehicle 1 is adjacent to another delivery vehicle and the platform 4, the terminal device 2 is added to the temperature measurement module 7 installed in the heat insulation box 5 loaded on the delivery vehicle 1, The measurement information Sd transmitted from the temperature measurement module 7 attached to the heat insulation box 5 loaded on the adjacent delivery vehicle and the heat insulation box 5 placed on the platform 4 is received. Even in this case, the terminal device 2 specifies the box ID of the heat insulating box 5 existing outside the delivery vehicle 1 based on the temporal change in the reception intensity of each measurement information Sd during the movement of the delivery vehicle 1. The measurement information Sd including the box ID is deleted without being transmitted to the server device 9.

[Insulation box structure example]
Next, a configuration example (first to third configuration examples) of the heat insulating box 5 will be described with reference to FIGS. However, it is not limited to these.

  FIG. 2A shows a first configuration example of the heat insulating box 5. 2 mainly includes a container body 10 having a top panel 11, a front panel 12, a left panel 13, a rear panel 14, a right panel 15, and a bottom panel 16. The container body 10 includes a top panel 11, a left panel 13, a back panel 14, a right panel 15 and a bottom panel 16 arranged so as to cover the bottom panel 16. The left panel 13 and the right panel 15 are each attached to the exterior bag 30. The top panel 11, the back panel 14, the bottom panel 16, and the front panel 12 are connected to the right panel 15 via a connecting portion (not shown) so as to be rotatable, and the front panel 12 is rotated. It can be a single door. A plurality of holding portions 19 that can accommodate objects are provided on the inner wall surface of the back panel 14 or the like. The temperature measurement module 7 may be accommodated in the holding unit 19. Furthermore, a hook 39 and a grip portion 38 illustrated in FIG. 3 to be described later are provided on the surface of the exterior bag 30.

  Moreover, the heat insulation box 5 can be folded and accommodated when not in use. This configuration will be described. FIG. 2B is an overhead view transparently showing the left panel 13, the back panel 14, and the right panel 15 of the heat insulation box 5 according to the first configuration example, and FIG. 2C is a back panel 14. And the structure of the joint of the right panel 15 is shown. As shown in FIGS. 2B and 2C, the back panel 14 can be detached from the left panel 13, while the back panel 14 and the right panel 15 are connected via a cloth or the like. The rear panel 14 can be folded so as to face the right panel 15. Similarly, the top panel 11 and the bottom panel 16 can be folded to the right panel 15 side.

  FIG. 3A shows the heat insulation box 5 in a state where the front panel 12 is removed and the back panel 14, the top panel 11, and the bottom panel 16 are sequentially folded to the right panel 15 side. In the example of FIG. 3A, after the back panel 14 is overlaid on the right side panel 15, the top panel 11 and the bottom panel 16 are overlaid so as to make surface contact with the back panel 14. FIG. 3B shows a state of the heat insulating box 5 when the left panel 13 is translated to the right panel 15 side. In the state of FIG. 3B, the front panel 12 and the left panel 13 are placed on the right panel 15 side so that the outer bag 30 removed from the container body 10 is sandwiched after the front panel 12 is overlapped on the inner wall of the left panel 13. To Thus, the heat insulation box 5 which concerns on a 1st structural example can be suitably folded and accommodated in a non-use state.

  4A and 4B show the heat insulation box 5 according to the second configuration example. As shown in FIG. 4A, the heat insulation box 5 according to the second configuration example has a configuration that can be opened on both sides, and the front panel 12 according to the second configuration example includes a left front panel 12L and a right front panel. And a panel 12R. The left front panel 12 </ b> L is rotatably connected to the left panel 13, and the right front panel 12 </ b> R is rotatably connected to the right panel 15.

  As shown in FIG. 4B, the top panel 11 can be folded in half to open the heat insulation box 5. In the example of FIG. 4B, the top panel 11 is composed of a front top panel 11F and a rear top panel 11R, and the front top panel 11F has a connecting portion with the rear top panel 11R. The axis is flipped outward. Similarly, the rear top panel 11R can be inverted outward with the connecting portion with the front top panel 11F as an axis. Thus, even the heat insulation box 5 according to the second configuration example can suitably accommodate the luggage and the temperature measurement module 7.

  Also, the heat insulation box 5 according to the second configuration example may be configured to be foldable when not in use. FIG. 5A shows the arrangement of the front panel 12, the left panel 13, the back panel 14, the right panel 15, and the bottom panel 16 during use. FIG. 5B shows the heat insulating box 5 in a state where the front panel 12, the left panel 13, the back panel 14, the right panel 15, and the bottom panel 16 are folded when not in use. In the example of FIG. 5, the back panel 14 and the left panel 13 and the back panel 14 and the right panel 15 are connected by a cloth or the like. And when accommodating the heat insulation box 5, after piled up the bottom face panel 16 on the back panel 14, the left side panel 13 and the right side panel 15 are piled up in order. Thus, even the heat insulation box 5 according to the second configuration example can be suitably folded and stored.

  FIG. 6A shows a front view of a state where the front door of the heat insulation box 5 according to the third configuration example is closed, and FIG. 6B shows that the front door of the heat insulation box 5 according to the third configuration example is opened. FIG. In the third configuration example, the front panel 12 includes a left front panel 12L, a right front panel 12R, and a lower front panel 12B. The left front panel 12 </ b> L is rotatably connected to the left panel 13, and the right front panel 12 </ b> R is rotatably connected to the right panel 15. Further, the lower front panel 12 </ b> B is rotatably connected to the bottom panel 16. The configuration of the top panel 11 and the folding structure when not in use are the same as in the second configuration example. Thus, even with the heat insulation box 5 according to the third configuration example, the luggage and the temperature measurement module 7 can be suitably accommodated.

The heat insulating box 5 may be sealed so as not to be opened by anyone other than an operator or a checker when used for transportation. Examples of sealing methods include, but are not limited to, tapes such as gummed tape, stretch films, security seals, sealed tablets, seal rings, dial locks, TSA (Transportation Security Administration) locks, and electronic locks. By using these, it is possible to prevent theft of the luggage inside the heat insulating box 5 and the mixing of articles by others. As a sealing method, the door part such as the front panel 12 of the heat insulation box 5 is fixed by wrapping with a tape or a stretch film so that the door part is fixed to the main body part, and a security seal is put on the door part and the main body part. A ring-shaped member is placed on both the body and the body, and each ring-shaped member is sealed with a sealing lock, a sealing ring, a dial type, a TSA type lock, and a dial type, TSA type locking mechanism at the tip. Although the method of installing the belt-shaped member which has in a door part and a main-body part, and connecting and fixing each can be considered, it is not limited to these.

[Configuration of terminal device]
FIG. 7 is a block diagram of the terminal device 2. The terminal device 2 mainly includes a display unit 21 such as a display and a lamp, an input unit 22 such as a touch panel, a storage unit 23, a communication unit 24, a control unit 25, a GPS receiver 26, and a sound output unit. 27 and an acceleration sensor 28. Each of these elements is connected to each other via a bus line 20.

  The storage unit 23 is configured by, for example, a memory such as a hard disk or a flash memory, and stores a program executed by the control unit 25 and information necessary for processing executed by the control unit 25. For example, the storage unit 23 stores a box registration list Lh that is a list of box IDs of the heat insulating boxes 5 loaded on the delivery vehicle 1. The box registration list Lh is generated by the control unit 25 based on the temporal change of the reception intensity for each box ID of the measurement information Sd within a predetermined time after the movement of the delivery vehicle 1 is detected. The storage unit 23 also stores measurement information Sd including the box ID registered in the box registration list Lh among the measurement information Sd received from each temperature measurement module 7 based on the control of the control unit 25.

  The communication unit 24 receives the measurement information Sd from the temperature measurement module 7 attached to each heat insulation box 5 based on the control of the control unit 25. At this time, the communication unit 24 supplies the control unit 25 with information on the received intensity of each received measurement information Sd. Further, the communication unit 24 transmits untransmitted measurement information Sd and the like stored in the storage unit 23 to the server device 9 to the server device 9 based on the control of the control unit 25. Further, the communication unit 24 receives the instruction information Si by the server device 9. In addition, the communication unit 24 receives information on engine on / off from the delivery vehicle 1 based on a predetermined communication protocol such as CAN (Controller Area Network) based on the control of the control unit 25.

  The GPS receiver 26 generates position information indicating the current position of the delivery vehicle 1. The acceleration sensor 28 generates acceleration information in the traveling direction of the delivery vehicle 1. The engine on / off information received by the communication unit 24, the position information output by the GPS receiver 26, and the acceleration information output by the acceleration sensor 28 are examples of “movement information” in the present invention.

  The control unit 25 includes a CPU, a ROM, a RAM, and the like (not shown), and performs various controls on each component in the terminal device 2 by executing a program stored in the storage unit 23. For example, the control unit 25 is at least one of engine on / off information acquired by the communication unit 24 from the delivery vehicle 1, position information output by the GPS receiver 26, and acceleration information output by the acceleration sensor 28. Is used to determine whether the delivery vehicle 1 has moved. And when it is judged that the delivery vehicle 1 is moving, the control part 25 produces | generates the box registration list | wrist Lh by monitoring the presence or absence of the change of the receiving intensity of the measurement information Sd. In this case, the control unit 25 determines that the heat insulation box 5 to which the temperature sensor module 7 whose reception intensity of the measurement information Sd changes during the movement of the delivery vehicle 1 is attached exists outside the delivery vehicle 1. Therefore, the control unit 25 generates, as the box registration list Lh, a list in which the box IDs in which the reception intensity of the measurement information Sd changes during the movement of the delivery vehicle 1 is excluded from the box IDs included in the received measurement information Sd. To do. Then, the control unit 25 accumulates only the measurement information Sd including the box ID registered in the box registration list Lh in the storage unit 23, and deletes the measurement information Sd including the box ID not included in the box registration list Lh. Then, based on the predetermined transmission timing, the control unit 25 transmits the untransmitted measurement information Sd stored in the storage unit 23 to the server device 9 together with the position information of the delivery vehicle 1, the vehicle ID, and the like. To the server device 9.

  Further, when the communication unit 24 receives the instruction information Si, the control unit 25 causes the display unit 21 and / or the sound output unit 27 to output a warning regarding the internal temperature of the heat insulating box 5 based on the instruction information Si. .

  The control unit 25 functions as a “movement information acquisition unit”, a “measurement information specifying unit”, a “measurement information storage unit”, and a “computer” that executes a program according to the present invention. The display unit 21 and the sound output unit 27 are examples of the “output unit” in the present invention. The communication unit 24 is an example of a “measurement information receiving unit”, “measurement information transmitting unit”, and “instruction information receiving unit”.

[Configuration of temperature measurement module]
FIG. 8 is a block diagram of the temperature measurement module 7. The temperature measurement module 7 mainly includes a temperature sensor 71, a communication unit 72, a storage unit 73, and a control unit 75. These elements are connected to each other via a bus line 70.

  The temperature sensor 71 measures the temperature and supplies the measured temperature information to the control unit 75. The temperature sensor 71 is an example of the “temperature measurement unit” in the present invention. The communication unit 72 transmits measurement information Sd generated by the control unit 75 based on the control of the control unit 75.

  The arrangement of the communication unit 72 may be in the internal space of the heat insulation box 5, may be in the external space, or may be embedded in the wall surface constituting the heat insulation box 5. For example, you may install the communication part 72 inside the holding | maintenance part 19 shown in FIGS. In this case, it is preferable that the members constituting the holding unit 19 do not hinder the transmission of information from the communication unit 72. If the holding unit 19 is configured with a member that may hinder communication, an opening that enables transmission of information may be provided in at least a part of the holding unit 19. When the communication part 72 is provided in the external space of the heat insulation box 5, the holding | maintenance which accommodates the communication part 72 in the wall surface and space which comprise the space (namely, internal space of the loading platform 17) where the heat insulation box 5 is loaded. A part may be installed. Moreover, when the communication part 72 is embedded in the wall surface of the heat insulation box 5, the embedded wall surface may be the left panel 13 or the right panel 15 forming the side surface of the heat insulation box 5 shown in FIG. The top panel 11 or the bottom panel 16 may be used. Since the convex part does not occur when the thickness of the communication part 72 is thinner than the wall surface, it is preferable to arrange other materials having a thickness equivalent to the difference between the thickness of the communication part 72 and the wall surface so as to fill the difference. Thus, it is more preferable that the concave portion is not generated. The above-mentioned other materials are preferably materials having high heat insulating properties such as fiber heat insulating materials, foam heat insulating materials, and vacuum heat insulating materials.

  The storage unit 73 stores a program executed by the control unit 75 and information necessary for processing executed by the control unit 75. In this embodiment, the memory | storage part 73 memorize | stores previously box ID etc. of the heat insulation box 5 in which the said temperature measurement module 7 is attached.

  The control unit 75 includes a CPU, ROM, RAM, and the like (not shown), and controls the entire temperature measurement module 7 by executing a program stored in the ROM or the like. In the present embodiment, the control unit 75 generates measurement information Sd obtained by adding the box ID of the heat insulating box 5 that is the attachment destination to the measurement information generated by the temperature sensor 71, and transmits the measurement information Sd by the communication unit 72.

[Configuration of server device]
FIG. 9 is a block diagram of the server device 9. As illustrated in FIG. 9, the server device 9 mainly includes a storage unit 93, a communication unit 94, and a control unit 95.

  The storage unit 93 stores a program executed by the control unit 95 and information necessary for processing executed by the control unit 95. For example, the storage unit 93 stores a temperature management table Tt in which information related to an allowable temperature zone for each heat insulation box 5 stacked on the delivery vehicle 1 is recorded. The temperature management table Tt will be described later. Further, based on the control of the control unit 95, the storage unit 93 stores temperature accumulation information Im in which the measured temperature of each heat insulation box 5 indicated by the measurement information Sd received from the terminal device 2 is recorded in time series.

  Based on the control of the control unit 95, the communication unit 94 performs a reception process of the measurement information Sd, a transmission process of the instruction information Si, and the like. The communication unit 94 is an example of the “measurement information receiving unit” in the present invention.

  The control unit 95 includes a CPU, a ROM, a RAM, and the like (not shown), and controls the entire server device 9 by executing a program stored in the ROM, the storage unit 93, or the like. For example, the control unit 95 refers to the temperature management table Tt, and based on the measured temperature of each heat insulation box 5 indicated by the measurement information Sd received from the terminal device 2, it is necessary to add the temperature adjusting material 8 of each heat insulation box 5. Determine. When the control unit 95 determines that the addition of the temperature adjusting material 8 is necessary, the control unit 95 transmits instruction information Si for instructing output of a warning regarding the internal temperature of the heat insulating box 5 to the terminal device 2 by the communication unit 94. . The control unit 95 is an example of the “determination unit” and “warning control unit” in the present invention.

  FIG. 10 shows an example of the data structure of the temperature management table Tt. The temperature management table Tt shown in FIG. 10 includes items of “box ID”, “allowable temperature zone”, and “warning threshold”.

  In the item “box ID”, the box ID of the heat insulating box 5 whose temperature is measured by the temperature measurement module 7 is recorded. In the item “allowable temperature range”, a range of a temperature at which the internal temperature of each heat insulating box 5 should be maintained at the time of transportation (that is, an allowable temperature) is recorded. In the allowable temperature zone, only one of the upper limit and the lower limit temperature may be defined, or the upper limit and the lower limit temperature may be defined.

  In the item “warning threshold value”, an upper limit value and / or a lower limit threshold value for determining whether or not a warning related to the additional charging of the temperature adjusting material 8 should be output is recorded. In addition, when the upper limit and the lower limit are provided in the allowable temperature range, warning threshold values corresponding to the upper limit value and the lower limit value are provided, respectively. In the example of FIG. 10, the threshold value for warning of the heat insulating box 5 of the box ID “C0001Y” having an allowable temperature range of 0 ° C. to 10 ° C. has a lower limit value of 2 ° C. and an upper limit value of 8 ° C.

  Thus, in the example of FIG. 10, a warning threshold value for determining whether or not a warning is necessary is associated with each heat insulation box 5. Therefore, the control unit 95 of the server device 9 compares the measured temperature included in the measurement information Sd received from the terminal device 2 with the warning threshold value of the temperature management table Tt corresponding to the box ID included in the measurement information Sd. By doing, the necessity of the warning regarding the temperature management of each heat insulation box 5 can be determined suitably. When the control unit 95 determines that the measured temperature included in the measurement information Sd received from the terminal device 2 is out of the corresponding allowable temperature range, the control unit 95 displays a warning content at a higher level than the warning based on the warning threshold value. The instruction information Si shown may be generated and transmitted to the terminal device 2.

[Processing flow]
(1) Measurement Information Accumulation Process FIG. 11 is a flowchart showing the procedure of the accumulation process of the measurement information Sd executed by the terminal device 2 after the thermal insulation box 5 of the delivery vehicle 1 is loaded. The terminal device 2 performs the processing of the flowchart of FIG. 11 at a predetermined timing such as when a predetermined user input indicating that the temperature management of the heat insulation box 5 should be started is detected or when the engine of the delivery vehicle 1 is turned on. Run with.

  First, the terminal device 2 receives the measurement information Sd including the box ID and the measurement temperature of the heat insulation box 5 to which the temperature measurement module 7 is attached from the temperature measurement module 7, and accumulates it in the storage unit 23 (step S101). . At this time, in addition to the measurement information Sd transmitted from the temperature measurement module 7 attached to the heat insulation box 5 existing in the loading platform 17 of the delivery vehicle 1, the terminal device 2 is provided with the platform 4 and others existing in the vicinity of the delivery vehicle 1. Measurement information Sd transmitted from the temperature measurement module 7 attached to the heat insulation box 5 placed in the delivery vehicle is also stored in the storage unit 23.

  Next, the terminal device 2 determines whether the delivery vehicle 1 is moving (step S102). For example, in this case, the terminal device 2 is at least one of engine on / off information acquired from the delivery vehicle 1 by CAN or the like, position information output from the GPS receiver 26, or acceleration information output from the acceleration sensor 28. Based on one, it is determined whether the delivery vehicle 1 is moving. If the terminal device 2 determines that the delivery vehicle 1 has not moved (step S102; No), the terminal device 2 continues to accumulate all the received measurement information Sd in step S101.

  When the terminal device 2 determines that the delivery vehicle 1 is moving (step S102; Yes), the terminal device 2 is connected to the outside of the delivery vehicle 1 based on the time variation of the reception intensity for each box ID of each measurement information Sd to be received. The box registration list Lh excluding the box ID of the heat insulating box 5 that is estimated to exist is generated (step S103). Details of the processing in step S103 will be described later.

  Next, the terminal device 2 deletes the measurement information Sd accumulated in the storage unit 23 including the box ID that is not in the box registration list Lh (step S104). That is, in this case, the measurement information Sd including the box ID not in the box registration list Lh is the measurement information Sd including the measurement temperature of the heat insulation box 5 existing outside the delivery vehicle 1 (that is, not subject to temperature management). Therefore, the terminal device 2 deletes the measurement information Sd. Thereby, the terminal device 2 prevents the measurement information Sd including the measured temperature of the heat insulation box 5 existing outside the delivery vehicle 1 from being unnecessarily transmitted to the server device 9.

  Then, after generating the box registration list Lh, the terminal device 2 accumulates only the measurement information Sd including the box ID of the box registration list Lh in the storage unit 23 when the measurement information Sd is received (step S105). The process of step S105 is repeatedly executed. The measurement information Sd accumulated in the storage unit 23 is transmitted to the server device 9 in a warning process described later.

  Next, the terminal device 2 determines whether the delivery vehicle 1 has stopped (step S106). For example, in this case, the terminal device 2 is at least one of engine on / off information acquired from the delivery vehicle 1 by CAN or the like, position information output from the GPS receiver 26, or acceleration information output from the acceleration sensor 28. Based on one, it is determined whether the delivery vehicle 1 has stopped. If the terminal device 2 determines that the delivery vehicle 1 is not stopped (step S106; No), the terminal device 2 continues to execute the process of step S105.

  On the other hand, when it is determined that the delivery vehicle 1 has stopped (step S106; Yes), the terminal device 2 receives the measurement information Sd among the box IDs registered in the box registration list Lh in a predetermined period after the stop. It is determined whether or not there is a box ID whose intensity has changed over time (that is, weakened) (step S107). If the terminal device 2 determines that the box ID for which the reception intensity of the measurement information Sd has changed with time exists in the box registration list Lh (step S107; Yes), it updates the box registration list Lh (step S108). ). That is, in this case, the terminal device 2 determines that the heat insulation box 5 of the box ID that has changed with time in the reception intensity of the measurement information Sd has been transferred to the unloading or other delivery vehicle, and stores the box ID in the box registration list. Delete from Lh. Thereby, the terminal device 2 prevents the measurement information Sd including the measured temperature of the heat insulation box 5 carried out of the delivery vehicle 1 from being unnecessarily transmitted to the server device 9.

  On the other hand, the terminal device 2 determines that the box ID that has changed with time in the reception strength of the measurement information Sd does not exist in the box registration list Lh (step S107; No) or after executing the step S108, the delivery vehicle 1 It is determined whether or not the delivery by is completed (step S109). For example, the terminal device 2 determines that the delivery by the delivery vehicle 1 is completed when all the box IDs are deleted from the box registration list Lh or when a predetermined user input is detected. If the terminal device 2 determines that the delivery of the delivery vehicle 1 has been completed (step S109; Yes), the terminal device 2 ends the process of the flowchart. On the other hand, when it is determined that the delivery by the delivery vehicle 1 is not completed (step S109; No), the terminal device 2 returns the process to step S105 again.

  Next, details of the processing in step S103 will be described.

  In step S103, the terminal device 2 obtains a list obtained by excluding the box ID in which the reception intensity of the measurement information Sd is changed while the delivery vehicle 1 is moving from the box ID included in each measurement information Sd accumulated in step S101. Generated as a registration list Lh. In this case, for example, the terminal device 2 determines, from the reception intensity of each measurement information Sd received in a predetermined period from the time when it is determined that the delivery vehicle 1 has moved until the elapse of a predetermined time, the range of change in the reception intensity for each box ID. Alternatively, a change rate is calculated, and box IDs whose change width or change rate is greater than or equal to a predetermined value are excluded from the box registration list Lh. The above-mentioned predetermined value is set based on an experiment or the like to a value larger than the upper limit value of the change width or rate of change of the reception intensity of the measurement information Sd that can be assumed when the heat insulation box 5 exists in the same vehicle as the terminal device 2 Is done.

  In general, when the delivery vehicle 1 is moving, the relative distance between the temperature measurement module 7 attached to the heat insulation box 5 existing outside the delivery vehicle 1 and the terminal device 2 changes (that is, becomes longer), so that the temperature measurement is performed. The reception intensity of the measurement information Sd received from the module 7 also changes (that is, weakens) according to the relative distance. Considering the above, when the terminal device 2 determines that the delivery vehicle 1 is moving, the terminal device 2 preferably determines whether there is a time change for each box ID of the reception intensity of each measurement information Sd. The box ID of the heat insulating box 5 existing outside can be excluded from the box registration list Lh.

  Next, a supplementary description will be given of steps S106 to S108. Even when the heat insulation box 5 is carried out from the delivery vehicle 1 by loading or unloading, the relative distance between the temperature measurement module 7 attached to the carried heat insulation box 5 and the terminal device 2 changes (that is, becomes longer). Therefore, the reception intensity of the measurement information Sd received from the temperature measurement module 7 also changes (that is, weakens) according to the relative distance. Considering the above, when the terminal device 2 determines that the delivery vehicle 1 has stopped even after generation of the box registration list Lh, the reception intensity of the measurement information Sd for each box ID registered in the box registration list Lh By determining the presence or absence of the time change, the box ID of the heat insulating box 5 carried out from the delivery vehicle 1 can be suitably deleted from the box registration list Lh.

(2) Warning Process FIG. 12 is a flowchart showing the procedure of the warning process regarding the additional charging of the temperature adjusting material 8. The terminal device 2 repeatedly executes the process of the flowchart of FIG. 12 at an arbitrary timing after the execution of step S104 of FIG.
First, the terminal device 2 transmits the measurement information Sd accumulated in the storage unit 23 to the server device 9 after the execution of step S104 in FIG. 11 (step S201). The measurement information Sd transmitted at this time includes any box ID registered in the box registration list Lh. In this case, the terminal device 2 transmits the identification information of the delivery vehicle 1 and the current position information to the server device 9 in addition to the measurement information Sd.

  When the server device 9 receives the measurement information Sd from the terminal device 2, the server device 9 stores the measured temperature of each heat insulation box 5 indicated by the measurement information Sd as the temperature accumulation information Im (step S202). Then, the server device 9 determines whether or not a warning is necessary based on the temperature management table Tt and the measured temperature of each heat insulation box 5 (step S203). If the server device 9 determines that there is a heat insulation box 5 that requires a warning (step S204; Yes), the server device 9 generates instruction information Si and transmits the instruction information Si to the terminal device 2 (step S205). On the other hand, if the server device 9 determines that there is no heat insulation box 5 that requires a warning (step S204; No), the server device 9 ends the process of the flowchart without generating the instruction information Si.

  When the terminal device 2 receives the instruction information Si from the server device 9, the terminal device 2 outputs a warning by at least one of the display unit 21 or the sound output unit 27 based on the instruction information Si (step S206).

[Operation and effect of this embodiment]
According to the present embodiment, the terminal device 2 determines the box ID of the heat insulation box 5 existing inside the delivery vehicle 1 based on the temporal change of the reception intensity for each box ID of the measurement information Sd when the delivery vehicle 1 moves. The box registration list Lh is generated by specifying, and only the measurement information Sd including the box ID registered in the box registration list Lh is transmitted to the server device 9. Thereby, the terminal device 2 can prevent unnecessary measurement information Sd transmitted from the temperature measurement module 7 attached to the heat insulation box 5 existing outside the delivery vehicle 1 from being transmitted to the server device 9. In this case, since the terminal device 2 does not receive a warning output instruction from the server device 9 to the heat insulation box 5 that is not a management target, the terminal device 2 is directed to the driver of the delivery vehicle 1 with respect to the heat insulation box 5 that is not a management target. It can suppress suitably issuing a warning unnecessarily.

[Modification]
Below, the modification of above-described embodiment is demonstrated. Note that the following modifications can be applied to the embodiment in any combination.

(Modification 1)
In the temperature management system 100 of FIG. 1, the server device 9 executes the necessity determination of the warning of the heat insulation box 5 or the like. Instead of this, the terminal device 2 may execute the determination of necessity of warning of the heat insulation box 5 by itself instead of the server device 9.

  In this case, the terminal device 2 stores the temperature management table Tt and the temperature accumulation information Im. In the flowchart of FIG. 12, the terminal device 2 replaces the process of transmitting the measurement information Sd in step S201 with the measurement information Sd. Is determined based on the measured temperature indicated, and if there is a heat insulation box 5 that requires a warning, a warning for the heat insulation box 5 is output. Also according to this aspect, the terminal device 2 can output a warning accurately when there is a heat insulating box 5 that requires additional charging of the temperature adjusting material 8, as in the embodiment.

(Modification 2)
In step S102 of FIG. 11, the terminal device 2 uses the communication protocol such as CAN from the delivery vehicle 1 to acquire information on the engine on / off, position information output from the GPS receiver 26, or output from the acceleration sensor 28. Whether or not the delivery vehicle 1 is moving is determined based on at least one of the acceleration information. However, the movement information of the delivery vehicle 1 that the terminal device 2 uses for the movement determination of the delivery vehicle 1 is not limited to this.

  Instead of this or in addition to this, the terminal device 2 may determine whether or not the delivery vehicle 1 has moved based on the output of another sensor. For example, the terminal device 2 may determine the presence or absence of movement of the delivery vehicle 1 based on the presence or absence of changes in the output of a rider (laser radar) mounted on the delivery vehicle 1 and the output image of the in-vehicle camera. In another example, the terminal device 2 may determine whether or not the delivery vehicle 1 has moved based on vehicle speed information acquired from the delivery vehicle 1 by CAN or the like. In this case, the output of the rider, the output image of the in-vehicle camera, and the vehicle speed information are examples of “movement information” in the present invention. Even in these cases, the terminal device 2 can preferably determine whether or not the delivery vehicle 1 has moved. In this way, the terminal device 2 may determine whether or not the delivery vehicle 1 has moved based on information regarding the movement of various delivery vehicles 1.

(Modification 3)
Instead of the configuration example of the temperature management system 100 in FIG. 1, the temperature management system 100 may have an output device for outputting a warning in the delivery vehicle 1, in addition to the terminal device 2. In this case, the output device includes an output unit such as a sound output unit or a display unit, and outputs a warning based on the instruction information Si when the instruction information Si is received from the server device 9. Even in this aspect, the temperature management system 100 can notify the driver of a warning regarding the internal temperature of the heat insulation box 5 as in the embodiment.

(Modification 4)
The necessity determination of the warning executed by the server apparatus 9 in step S203 of FIG. 12 is not limited to the method using the warning threshold shown in FIG.

  For example, a plurality of warning threshold values may be provided for each upper limit value and / or lower limit value instead of the example of FIG. In this case, the server device 9 changes the output mode of the warning to be output (for example, the frequency or the display color of the display) in accordance with the warning threshold value at which the measured temperature has reached. At this time, the server device 9 may determine the warning output mode so that a higher level warning is output as the measured temperature of the heat insulation box 5 reaches a warning threshold value close to the boundary value of the allowable temperature range. According to this example, the server device 9 can accurately determine the warning output mode according to the urgency of the additional charging of the temperature adjusting material 8.

  In another example, instead of using the warning threshold value, or in addition to the warning threshold value, the server device 9 changes the internal temperature of the heat insulation box 5 from the time-series change tendency of the past measurement temperature of each heat insulation box 5. By predicting, it may be determined whether or not a warning is necessary. In this case, for example, the server device 9 refers to the temperature accumulation information Im, calculates the rate of change of the measured temperature of each heat insulation box 5 within the most recent predetermined time, and determines the target heat insulation box 5 from the change rate. An estimated value of the internal temperature of the heat insulation box 5 at the scheduled delivery time to the delivery place is calculated. Then, the server device 9 determines whether or not a warning is necessary by determining whether or not the estimated value is within the allowable temperature range. In this case, for example, the server device 9 stores the delivery location and the scheduled delivery time of the heat insulation box 5 in the storage unit 93 in advance in association with the box ID of each heat insulation box 5. In addition, the server apparatus 9 is based on the current position information of the delivery vehicle 1 received from the terminal apparatus 2 and the information on the planned travel route to the delivery location of each heat insulation box 5. The time may be calculated in real time. Also according to this example, the server device 9 can appropriately determine whether or not a warning is necessary and appropriately suppress an instruction to add an unnecessary temperature adjusting material 8.

(Modification 5)
The configuration example in which the measurement information measured by the temperature sensor 71 and the identification information for specifying the heat insulation box 5 are transmitted to the terminal device 2 is not limited to the mode in which the communication unit 72 directly transmits to the terminal device 2.

  For example, when the heat insulating box 5 is arranged in a space (blocking space) where the signal is blocked, the temperature sensor 71 that measures the internal temperature of the heat insulating box 5 is connected to the first transmission unit placed in the blocking space. In a mode in which measurement information is sent, wired to the first transmission unit, sent to the second transmission unit arranged outside the blocking space, and transmitted from the second transmission unit to the terminal device 2 There may be. Moreover, although it may be difficult to ensure a power supply in the space where the heat insulation box 5 is loaded, a power supply can be ensured by arrange | positioning a 2nd transmission part out of a loading space. As a result, there is no need to worry about running out of battery due to data transmission to the terminal device 2 that consumes a large amount of power.

  FIG. 13 is a schematic configuration diagram of a temperature management system 100A in the present modification. In the example of FIG. 13, the communication unit 72 of the temperature measurement module 7 installed in each heat insulation box 5 transmits measurement information Sd to the parent device 18 by wireless communication. The base unit 18 is connected to the terminal device 2 by wire, and transmits the measurement information Sd received from the temperature measurement module 7 to the terminal device 2. In this case, at least one of the terminal device 2 and the parent device 18 generates and stores the box registration list Lh, and deletes the measurement information Sd including the box IDs not registered in the box registration list Lh without accumulating. . In the configuration example of FIG. 13, the communication unit 72 of the temperature measurement module 7 corresponds to the first transmission unit described above, and the parent device 18 corresponds to the second transmission unit described above.

  The connection form between the temperature measurement module 7 and the parent device 18 may be wired connection or wireless connection. In the case of wired connection, methods such as Ethernet (registered trademark), RS-232C, USB 2.0, IEEE 1394, and the like may be mentioned, but the method is not limited to these. In the case of wireless connection, RF-ID, NFC (Near Field Communication), Bluetooth (registered trademark), UWB (Ultra Wide Band), ZigBee (registered trademark), and the like can be mentioned, but the methods are not limited to these. Absent. The connection form between the parent device 18 and the terminal device 2 is preferably a wired connection.

(Modification 6)
The frequency of transmission of the measurement information Sd from the terminal device 2 to the server device 9 may be controlled. In this case, as an example, the terminal device 2 analyzes the measurement temperature of each heat insulation box 5 and when the temperature change does not occur or is sufficiently small, the transmission frequency of the measurement information Sd is reduced and the temperature change is large. Increases the transmission frequency of the measurement information Sd. Thereby, transmission of unnecessary measurement information Sd can be reduced, and an energy saving effect can be obtained. On the other hand, the terminal device 2 promptly sends the measurement information Sd to the server device 9 to determine whether or not the temperature adjustment material 8 needs to be added to the server device 9, particularly when a sudden temperature change occurs. It should be executed. In this case, it is preferable that the measurement information measured by the temperature sensor 71 is also accumulated in the terminal device 2.

(Modification 7)
When there is a terminal used by an administrator who manages the state of each delivery vehicle 1 apart from the server device 9, the server device 9 transmits instruction information Si to the terminal device 2 when it is determined that a warning is necessary. In addition to or instead of this, mail delivery or the like may be further performed to the above-described terminal.

  In this case, the server device 9 includes, for example, information specifying the delivery vehicle 1 in addition to the information corresponding to the instruction information Si as the contents of the email to be notified. The manager who has received the mail from the terminal by mail distribution notifies the driver of the delivery vehicle 1 of an instruction for the nearest stop or route change to the driver as appropriate. For example, in this case, the administrator may give a voice instruction to the driver of the delivery vehicle 1 using a VHF or UHF band radio telephone. In this case, the administrator's terminal is preferably based on the information notified by e-mail from the terminal device 2, the delivery location of the package in the heat insulation box 5 to be warned, the current position of the delivery vehicle 1, and the traveling schedule A map showing the route and the points where the vehicle can be stopped is displayed. Then, the manager determines the instruction content to be notified to the driver of the delivery vehicle 1 based on the display content of the terminal. As a result, the manager can accurately instruct the driver of the delivery vehicle 1 regarding the addition of the temperature adjusting material 8.

(Modification 8)
When outputting a warning that the temperature adjusting material 8 should be added, the terminal device 2 may specify the type and number of the temperature adjusting materials 8 to be added.

  For example, for each box ID, the server device 9 stores information on the type and number of the temperature adjusting material 8 to be used at the time of warning in association with each other, and when the heat insulating box 5 that needs a warning is specified, the heat insulating box 5 The type and the number of the temperature adjusting materials 8 associated with the box ID of the box are specified. Then, the server device 9 includes the information on the type and the number of the temperature adjusting materials 8 to be added additionally specified in the instruction information Si and transmits the information to the terminal device 2. Thereby, the terminal device 2 can make a driver | operator recognize exactly the kind and number of the temperature control materials 8 required for temperature control, and can perform temperature control work smoothly.

(Modification 9)
The server device 9 compares the number of the heat insulation boxes 5 actually loaded on the delivery vehicle 1 with the number of the heat insulation boxes 5 scheduled to be loaded on the delivery vehicle 1 registered in advance. May notify the driver or the like.

  In this case, for example, information relating to the delivery vehicle 1 is registered in advance in the server device 9 or the like as the process “delivery plan” of the delivery vehicle 1. The information registered in this case (also referred to as “pre-registration information”) corresponds to, for example, information on the place and time where the heat insulation box 5 is stacked, the delivery destination, and the number of pieces. Then, the terminal device 2 calculates the number of the heat insulating boxes 5 stacked on the delivery vehicle 1 based on the box registration list Lh, and transmits it to the server device 9 together with the vehicle ID of the delivery vehicle 1 and the like. The server device 9 refers to the pre-registration information, compares the notified number of heat insulation boxes 5 with the number of heat insulation boxes 5 to be stacked on the target delivery vehicle 1, and if these numbers are different. Then, the instruction information Si causes the terminal device 2 to output a warning, and notifies the terminal used by the administrator described in (Modification 7). As a result, the server device 9 can cause the driver to check the number of the heat insulating boxes 5 and to deal with the information and the actual situation so that there is no discrepancy such as reporting to the administrator.

(Modification 10)
In step S108 of FIG. 11, the terminal device 2 may treat the box ID whose reception intensity of the measurement information Sd changes with time on the box registration list Lh instead of deleting the box ID from the box registration list Lh. That is, in this case, the server device 9 allows the target box ID to be distinguished from other box IDs while leaving the target box ID in the box registration list Lh. Even in this case, the terminal device 2 deletes the measurement information Sd of the box ID that is reserved on the box registration list Lh without transmitting it to the server device 9. Also in this aspect, the terminal device 2 uses the server device 9 to transmit unnecessary measurement information Sd transmitted from the temperature measurement module 7 attached to the heat insulation box 5 carried out of the delivery vehicle 1 by unloading or transshipment. Can be prevented from being sent to. Similarly, instead of deleting the measurement information Sd in step S104, the terminal device 2 may store the measurement information Sd separately from other measurement information Sd so that the measurement information Sd is not held and transmitted to the server device 9.

DESCRIPTION OF SYMBOLS 1 Delivery vehicle 2 Terminal device 5 Thermal insulation box 7 Temperature measurement module 8 Temperature adjustment material 9 Server apparatus 100, 100A Temperature management system

Claims (9)

A movement information acquisition unit for acquiring movement information relating to movement of a vehicle on which a storage box to be transported is loaded;
A measurement information receiving unit that receives measurement information including identification information and measurement temperature of the storage box from a temperature measurement unit provided in each of the storage boxes;
A measurement information specifying unit for specifying measurement information transmitted from a temperature measurement unit present in the vehicle, based on each received intensity of the measurement information and the movement information;
A measurement information storage unit for storing the measurement information specified by the measurement information specifying unit in a storage unit;
An information processing apparatus comprising:   When the measurement information specifying unit determines that the vehicle has moved or stopped based on the movement information, the measurement information specifying unit determines whether the measurement information is received from each of the temperature measurement units based on a temporal change in the reception intensity of the measurement information. The information processing apparatus according to claim 1, wherein measurement information transmitted from a temperature measurement unit existing in the network is specified. The measurement information storage unit
Before the measurement information specifying unit specifies the measurement information, all the measurement information received by the measurement information receiving unit is stored in the storage unit,
After the measurement information specifying unit specifies the measurement information, the storage unit includes measurement information including identification information of the storage box other than the identification information of the storage box included in the measurement information specified by the measurement information specifying unit. The information processing apparatus according to claim 1, wherein the information processing apparatus is stored separately from the measurement information that is deleted or specified by the measurement information specifying unit.   4. The apparatus according to claim 1, further comprising a measurement information transmission unit that transmits measurement information stored in the storage unit to a temperature management device that manages an internal temperature of the storage box. 5. Information processing device. An instruction information receiving unit that receives warning instruction information about the internal temperature of the storage box from the temperature management device;
An output unit for outputting a warning based on the instruction information;
The information processing apparatus according to claim 4, further comprising:   The measurement information transmission part which transmits the measurement information memorize | stored in the said memory | storage part with respect to the terminal device which communicates with the temperature management apparatus which manages the internal temperature of the said storage box is further characterized by the above-mentioned. The information processing apparatus according to any one of claims. The information processing apparatus according to any one of claims 1 to 6, wherein the information processing apparatus exists in a vehicle on which a storage box is loaded;
A temperature management system that manages an internal temperature of the storage box,
The temperature management device is:
A storage unit that stores information on the allowable temperature during transportation of the internal temperature of the storage box;
A measurement information receiving unit for receiving measurement information stored by the information processing apparatus;
Based on the information on the allowable temperature and the measurement information, a determination unit that determines whether adjustment of the internal temperature of the storage box is necessary,
A temperature management system comprising: The temperature management device is:
When the determination unit determines that the internal temperature of the storage box needs to be adjusted, a warning about the internal temperature of the storage box is given to the information processing apparatus or an output device that is present in the same vehicle as the storage box. The temperature management system according to claim 7, further comprising a warning control unit that transmits the instruction information. A program executed by a computer that receives measurement information including identification information and measurement temperature of the storage box from a temperature measurement unit provided in each of the storage boxes,
A movement information acquisition unit for acquiring movement information relating to movement of a vehicle on which a storage box to be transported is loaded;
A measurement information specifying unit for specifying measurement information transmitted from a temperature measurement unit present in the vehicle, based on each received intensity of the measurement information and the movement information;
A program that causes the computer to function as a measurement information storage unit that stores measurement information specified by the measurement information specifying unit in a storage unit.

Images